KR100550571B1 - Window type air conditioner - Google Patents

Abstract

In the integrated air conditioner according to the present invention, indoor air is sucked from the left and right sides of the frame through the left air inlet and the right air inlet of the frame, and the sucked air passes through each of the left and right heat exchangers. Since the cooled / heated air is sucked and combined by the blower fan and blown forward, the cooling / heating efficiency is high and the backflow of the discharged air is minimized.

Integrated air conditioner, frame, left air intake, right air intake, blower fan, left heat exchanger, right heat exchanger

Description

Integrated Air Conditioner {Window type air conditioner}

1 is a perspective view of one embodiment of an integrated air conditioner according to the present invention;

2 is an exploded perspective view of one embodiment of an integrated air conditioner according to the present invention;

3 is a cross-sectional view of one embodiment of an integrated air conditioner according to the present invention;

4 is a longitudinal cross-sectional view of an embodiment of an integrated air conditioner according to the present invention;

5 is a perspective view of an integrated air conditioner according to the prior art,

6 is an exploded perspective view of an integrated air conditioner according to the prior art,

7 is a longitudinal sectional view of an integrated air conditioner according to the prior art.

<Explanation of symbols on main parts of the drawings>

52: base fan 53 ,: right air intake

54: left air inlet 55: frame

56: orifice 57: euro guide

58: air outlet 59: front panel

60: barrier 61: right air intake

62: upper air inlet 63: left air inlet

64: cabinet 67: front axis of rotation

68: rear rotating shaft 70: biaxial motor

72: indoor blowing fan 73: hub

74: blade 76: outdoor blowing fan

77: hub 78: blade

80: indoor heat exchanger 81: right heat exchanger

83: left heat exchanger 81a, 83a: refrigerant inlet pipe

81b and 83b: refrigerant outlet pipe 86; Shroud

88: orifice 90: outdoor heat exchanger

94: compressor 96: capillary tube

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated air conditioner, and more particularly, to an integrated air conditioner in which indoor air is sucked into both sides and heat exchanged, and then discharged forward.

In general, an air conditioner is a device for treating intake air and supplying it to a building or a room to maintain indoor air in a comfortable condition. The air conditioner is classified into a separate type or a split type and a window type.

The separation type and the integrated type are functionally the same, but the separation type is to install a cooling device on the indoor side and a heat dissipation and compression device on the outdoor side to connect the devices separated from each other by refrigerant piping.

On the other hand, the integrated type integrates the functions of cooling and heat dissipation, and is mounted on a wall or window of a house to directly inhale and discharge the indoor air, or mounted on the outside to inhale the air in the room through a duct connected to the indoor and discharged. do.

5 is a perspective view of an integrated air conditioner according to the prior art, Figure 6 is an exploded perspective view of the integrated air conditioner according to the prior art, Figure 7 is a longitudinal cross-sectional view of the integrated air conditioner according to the prior art.

5 to 7, the integrated air conditioner according to the prior art, the base fan 2, the cabinet 4 disposed on the upper side of the base fan 2, and the base fan 2 and An air guide 6 partitioning the cabinet 4 between the indoor space I and the outdoor space O, and disposed in front of the interior side of the cabinet 4 to form a front part of the integrated air conditioner. The front panel 9, the compressor 12 for changing the low temperature low pressure gaseous refrigerant to high temperature and high pressure, and the refrigerant from the compressor 12 disposed in the outdoor space O are stored in the outdoor space ( O) condenser 14, which condenses in a liquid state while dissipating heat into the air in the air, and expands the high-temperature and high-pressure liquid refrigerant condensed in the condenser 14 to a low-temperature, low-pressure two-phase refrigerant (mixing of liquid and gas). An expansion valve (not shown) and the indoor side space (I) The passed two-phase refrigerant includes an evaporator 16 which evaporates in a gaseous state while absorbing heat of air in the indoor space I.

The cabinet 4 has an outdoor suction port 5 through which outdoor air is sucked on the side and the upper surface of the outdoor side, and the rear surface of the cabinet 4 is opened to discharge air to the outdoor.

The air guide 6 is a lower guide (7) disposed on the base fan 2 and the upper air of the lower guide 32 is disposed on the air forced by the turbo fan 24 to be described later The upper guide 8 guides to the indoor air outlet 11.

The front panel 9 has an indoor air intake port 10 through which indoor air is sucked, and is formed on the front surface, and the indoor air discharges the air of the indoor space I to the upper side or the side of the indoor air intake port 10. An air discharge port 11 is formed.

In addition, the integrated air conditioner is fixed to the air guide 6, the two-axis motor 20, the front shaft 20a and the rear shaft 20b protrude into the indoor space and the outdoor space, respectively, and the evaporator 16 Turbo fan 24 connected to the front shaft 20a of the two-shaft motor 20 to force circulation of the air in the room, and the orifice 26 located on the suction side of the turbo fan 24 to accelerate the wind speed ), A propeller fan 28 connected to the rear shaft 20b of the double shaft motor 20 to force the outdoor air to pass through the condenser 14, and the outdoor sucked by the rotation of the propeller fan 26. The shroud 30 further forms an air passage.

Referring to the operation of the conventional integrated air conditioner configured as described above are as follows.

First, when the integrated air conditioner is operated, a refrigerant is circulated in the refrigeration cycle including the compressor 12, the condenser 14, the expansion mechanism (not shown), and the evaporator 16, and the biaxial motor 20 is driven. Thus, the turbo fan 24 and the propeller fan 28 are rotated.

The indoor air of the front side of the integrated air conditioner is sucked backward by the rotation of the turbo fan 24, passes through the air inlet 10 of the front panel 9, and passes through the evaporator 16. After passing through the orifice 26, the lower guide 7 and the upper guide 8, the flow direction is bent forward, and passes through the air outlet 11 of the front panel 9. It is discharged again to the front side of the integrated air conditioner.

In addition, the outdoor air is sucked into the inlet 5 of the cabinet 4 by the rotation of the propeller fan 28, passes through the shroud 30, and passes through the condenser 14 to absorb heat of the refrigerant. After taking away, it is discharged to the outside.

However, since the integrated air conditioner according to the related art has the indoor air intake port 10 and the indoor air discharge port 11 formed on the front surface of the integrated air conditioner, there is a problem that a considerable amount of the discharged air is immediately sucked back.

In addition, since the air in the room is sucked from the front of the turbo fan 24 and bent upward, the air is bent again by the upper guide 8, so that the flow loss is large and the noise is large.

The present invention has been made in order to solve the above problems of the prior art, the heat exchanger is arranged in the left, right, and the indoor air is sucked through the left and right sides and discharged through the front after heat exchange, high cooling / heating efficiency and It is an object of the present invention to provide an integrated air conditioner in which the reverse flow of discharged air is minimized and power consumption is minimized.

The integrated air conditioner according to the present invention for solving the above problems is the right air inlet is formed on the right side, the right air inlet is formed on the left side; A blowing fan disposed inside the frame such that indoor air is sucked through the right air inlet and the left air inlet and blown forward; A right heat exchanger disposed between the right air intake port and the blower fan so that the air sucked through the right air intake port is exchanged; And a left heat exchanger disposed between the left air intake port and the blower fan so that the air sucked through the left air intake port is exchanged.

In addition, the blowing fan is characterized by consisting of a hub connected to the rotation axis of the blowing motor and a plurality of blades formed in a spiral direction along the outer surface of the hub.

In addition, the integrated air conditioner is characterized in that the refrigerant pipes connected to each of the left heat exchanger and the right heat exchanger are connected in parallel.

In addition, the integrated air conditioner is characterized in that it further comprises a flow path guide formed with an orifice for guiding the air blown forward by the blowing fan, and a barrier disposed to block the back side of the frame.

The left heat exchanger and the right heat exchanger may be disposed between the front surface of the barrier and the rear surface of the flow path guide.

The integrated air conditioner may further include a front panel disposed at the front of the frame and having an air discharge port through which air blown by the blower fan is discharged to the room.

In addition, the air discharge port is characterized in that formed in front of the blowing fan.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of one embodiment of an integrated air conditioner according to the present invention, Figure 2 is an exploded perspective view of one embodiment of an integrated air conditioner according to the present invention, Figure 3 is a cross-sectional view of one embodiment of an integrated air conditioner according to the present invention. 4 is a longitudinal sectional view of an embodiment of an integrated air conditioner according to the present invention.

As shown in FIG. 1, the integrated air conditioner according to the present exemplary embodiment, the indoor air A is sucked into both sides and heat exchanged, and then discharged through the front surface.

Then, the outdoor air (B) is sucked to both sides or the upper surface and heat exchanged and then discharged through the rear surface.

As shown in FIGS. 2 to 4, the integrated air conditioner includes a frame 55 formed with air inlets 53 and 54 through which indoor air is sucked above the front part of the base fan 52.

The frame 55 is a right air inlet 53 is formed in the right side portion, the left air inlet 54 is formed in the left side portion, the air intake frame is the indoor air is sucked through the left and right two sides.

The frame 55 is provided with a flow path guide 57 having an orifice 56 for guiding the air blown forward by the indoor blower fan 72 to be described later.

In front of the frame 55, a front panel 59 having an air discharge port 58 through which air blown by the indoor blower fan 72 is discharged is disposed.

The front panel 59 has the air discharge port 58 formed in front of the indoor blower fan 72, and the air discharge port 58 has a discharge grill 59a for protecting the inside of the air discharge port 58. Is fitted.

On the other hand, the rear surface of the frame 55 is equipped with a barrier 60 for partitioning the interior of the integrated air conditioner into the interior space (I) and the outdoor space (O).

The barrier 60 is disposed to block the rear side of the frame 55.

Meanwhile, a cabinet 64 having air inlets 61, 62, and 63 through which outdoor air is sucked is mounted above the rear part of the base fan 52.

The cabinet 64 has a right air inlet 61 formed at a right side thereof, an upper air inlet 62 formed at an upper side thereof, a left air inlet 63 formed at a left side thereof, and a rear side thereof is opened. Outdoor air is sucked through the three sides, and the air sucked from the outside is discharged through the back surface.

On the other hand, the barrier 60 is a double-axis motor 70 that is a blowing motor in which the front rotation shaft 67 protrudes toward the front of the barrier 60 and the rear rotation shaft 68 protrudes toward the rear of the barrier 60. Is fitted.

An indoor blower fan 72 that sucks air into the left and right air inlets 53 and 54 of the frame 55 and blows it forward is formed on the front rotation shaft 67 of the two-axis motor 70. Is connected to the inside of the fan, the outdoor rotary fan for sucking the air to the rear of the rotating shaft 68 of the biaxial motor 70 by the air inlet (60, 61, 62) of the cabinet 64 ( 76 is connected to be located inside the cabinet 64.

The indoor blowing fan 72 sucks air from the rear or the circumference and blows the air forward, and the hub 73 fixed to the front rotation shaft 67 of the biaxial motor 70 and the outside of the hub 73 It consists of the some blade 74 formed elongate along the circumference, and is called a chi fan or an X fan.

The outdoor blower fan (76) sucks air in the front or circumference and blows it backwards, and the hub (77) fixed to the rear rotation shaft (68) of the double shaft motor (70) and the outside of the hub (77). It consists of the some blade 78 formed elongate along the circumference, and is called a chi fan or an X fan.

On the other hand, inside the frame 55 is disposed an indoor heat exchanger 80 in which the air sucked by the indoor blowing fan 72 heat exchange.

The indoor heat exchanger 80 is disposed between the right air intake port 53 and the indoor blower fan 72 so that the air sucked through the right air intake port 53 exchanges heat with the right heat exchanger 81; It is arranged between the left air intake port 54 and the blower fan 72 and consists of a left heat exchanger 83 so that the air sucked through the left air intake port 54, the right heat exchanger 81 and Each of the left heat exchanger 82 cools / heats the air sucked in the room.

Each of the right heat exchanger 81 and the left heat exchanger 83 includes a refrigerant pipe through which the refrigerant passes, and a plurality of fins or plates mounted on the refrigerant pipe to promote heat transfer of the refrigerant passing through the refrigerant pipe. It consists of.

The right heat exchanger 81 and the left heat exchanger 83 are connected to the refrigerant inlet pipes 81a and 83a connected to the respective refrigerant pipe inlet sides in parallel, and the refrigerant outlets connected to the respective refrigerant pipe outlet sides thereof. Pipes 81b and 83b are connected in parallel.

The right heat exchanger 81 and the left heat exchanger 83 are disposed between the front surface of the barrier 60 and the rear surface of the flow path guide 57.

The right heat exchanger 81 or the left heat exchanger 83 may be disposed in front and rear side by side with the right side surface portion and the left side surface portion of the frame 55, and may be predetermined on the right side surface and the left side surface of the frame 55. Of course, it is also possible to be arranged to be inclined at an angle.

In this case, when the right heat exchanger 81 or the left heat exchanger 83 is disposed to be inclined at a predetermined angle, the heat transfer area becomes larger than when disposed in the front-back direction, and is perpendicular to the air flow direction sucked from the side and bent forward. As a result, the flow path resistance is minimized and the heat transfer efficiency is high.

Meanwhile, a shroud 86 is formed inside the cabinet 64 to form a flow path of outdoor air sucked by the outdoor blower fan 76.

The shroud 86 is formed with an orifice 88 in which the outdoor blowing fan 76 is located inside.

An outdoor heat exchanger 90 is disposed inside or behind the shroud 86 to discharge heat of the refrigerant to air blown backward by the outdoor blower fan 76.

The outdoor heat exchanger 90 is composed of a refrigerant pipe through which the refrigerant passes, and a plurality of fins or plates mounted on the refrigerant pipe to promote heat transfer of the refrigerant passing through the refrigerant pipe.

The outdoor heat exchanger (90) is disposed long left and right on the rear side of the integrated air conditioner.

Reference numeral 94 is a compressor mounted to the base fan 52 so as to be located in the outdoor space O.

Reference numeral 96 denotes an expander disposed between the outdoor heat exchanger 90 and the indoor heat exchanger 80 so that the refrigerant condensed in the outdoor heat exchanger 90 is expanded and then moved to the indoor heat exchanger 80. Sump capillary tube.

Looking at the operation of the present invention configured as described above are as follows.

First, when the integrated air conditioner is operated, the compressor 94 is driven to discharge the high temperature and high pressure gas refrigerant, and the discharged high temperature and high pressure gas refrigerant discharges heat to the surroundings while passing through the outdoor heat exchanger 90. Condensed, the condensed refrigerant is reduced in pressure as it passes through the capillary tube 96 to change into a two-phase refrigerant.

The reduced pressure refrigerant is dispersed in the refrigerant inlet pipes 81a and 83a and introduced into the right heat exchanger 81 and the left heat exchanger 83 of the indoor heat exchanger 80, and the right heat exchanger 81 While passing through the left heat exchanger (83), the surrounding heat is taken away and evaporated. The refrigerant is discharged through the outlet pipes (81b, 83b) and circulated to the compressor (94).

On the other hand, the integrated air conditioner drives the biaxial motor 70 when the compressor 94 is driven.

When the two-axis motor 70 is driven, the indoor blower fan 72 is rotated to generate a negative pressure in the circumference or the rear, and the air A next to the frame 55 is the right air of the frame 55. It passes through the intake port 53 and the left air intake port 54 and is sucked into the interior space I, which is the inner front of the integrated air conditioner.

Air sucked through each of the right air intake port 53 and the left air intake port 54 passes through each of the left heat exchanger 81 and the right heat exchanger 83 of the heat exchanger 80 and is heated as a refrigerant. It is taken away, cooled, sucked by the indoor blower fan (72), combined, and blown to the front of the indoor blower fan (72).

The blown air passes through the air discharge port 58 of the orifice 56 and the front panel 59 in order and is discharged to the front of the integrated air conditioner.

On the other hand, the outdoor blower fan 76 is rotated when the two-axis motor 70 is driven to generate a negative pressure in the circumference or front, the air (B) on the side and the upper side of the cabinet 64 is the cabinet 64 It passes through the right air intake port 61, the upper air intake port 62, and the left air intake port 63, and is sucked into the outdoor side space I, which is the rear side of the integrated air conditioner.

Air passing through each of the right air intake port 61, the upper air intake port 62, and the left air intake port 63 is drawn into the outdoor blower fan 76 and blown to the rear, and the shroud 86 of the After passing through the orifice 88, the heat of the refrigerant is desorbed and heated while passing through the outdoor heat exchanger 90, and is discharged to the rear of the integrated air conditioner through the rear surface of the cabinet 64.

On the other hand, the present invention is not limited to the above embodiment, of course, the frame 55 and the cabinet 64 may be formed integrally.

In the integrated air conditioner according to the present invention configured as described above, the indoor air is sucked from the left and right sides of the frame through the left air inlet and the right air inlet of the frame, and the sucked air passes through each of the left heat exchanger and the right heat exchanger. As it passes through, it is cooled / heated, and the cooled / heated air is sucked and combined by the blower fan and then blown forward, thereby providing high cooling / heating efficiency and minimizing the reverse flow of the discharged air.

In addition, since the integrated air conditioner has indoor air sucked in the left and right two directions of the frame, and the air suction area of the blower fan is wider than when the air is sucked in one direction in front of the blowing fan, a large amount of indoor air It can be sucked and heat exchanged quickly, the load and power consumption of the blower fan is minimized, flow loss and noise is minimized.

In addition, the integrated air conditioner is provided with an orifice for guiding the air blown forward by the blower fan, the barrier blocks the back side of the frame, the advantage that the air sucked in the room is quickly blown forward have.

In addition, since the left side heat exchanger and the right side heat exchanger are disposed between the front surface of the barrier and the rear surface of the flow path guide, the integrated air conditioner has a sufficient heat transfer area and minimizes the front, rear, left, and right widths of the integrated air conditioner. There is an advantage to that.

The integrated air conditioner may further include a front panel disposed at the front of the frame and having an air discharge port formed at the front of the blower fan, and the air blown by the blower fan may be discharged straight ahead. Turbulence and noise that can be generated when the air flow path is bent are minimized, and the heat-exchanged air can be discharged quickly into the room.

Claims (7)

A frame having a right air inlet formed on the right side and a right air inlet formed on the left side; A blowing fan disposed inside the frame such that indoor air is sucked through the right air inlet and the left air inlet and blown forward; A right heat exchanger disposed between the right air intake port and the blower fan so that the air sucked through the right air intake port is exchanged; And a left heat exchanger disposed between the left air intake port and the blower fan so that the air sucked through the left air intake port is heat exchanged. The method of claim 1, The blowing fan is an integrated air conditioner, characterized in that consisting of a plurality of blades formed in a spiral direction along the outer surface of the hub and the rotating shaft of the blowing motor. The method of claim 1, The integrated air conditioner is an integrated air conditioner, characterized in that the refrigerant pipes connected to each of the left heat exchanger and the right heat exchanger are connected in parallel. The method of claim 1, The integrated air conditioner includes a flow guide having an orifice for guiding the air blown forward by the blowing fan; And a barrier disposed to block the back side of the frame. The method of claim 4, wherein And the left heat exchanger and the right heat exchanger are disposed between the front surface of the barrier and the rear surface of the flow path guide. The method according to any one of claims 1 to 5, The integrated air conditioner further comprises a front panel disposed on the front of the frame and formed with an air discharge port through which the air blown by the blower fan is discharged into the room. The method of claim 6, The air discharge port is an integral air conditioner, characterized in that formed in front of the blowing fan.

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